Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2019 | 28 | 5 |
Tytuł artykułu

Identifying bacterial communities in a full-scale wood chip biofilter

Warianty tytułu
Języki publikacji
Although biofilters have an important role in the purification of VOC mixtures or inorganic waste gas compounds and despite their widespread use, the microbial community characterization is not fully known, particularly in full-scale biofiltering processes. Maintaining microbial activity and sustainability are major factors in biological processes such as biofilters, in which the contaminating compounds are catalyzed by the microbial community. In this study, bacterial diversity was investigated in a full-scale biofilter unit, which is operated to treat odorous gases, collected from a composting process. Bacterial strains composition was determined by the DNA isolation of samples taken from wood chips. The wood chips were processed by amplification of 16S rDNA by PCR (polymerase chain reaction) and sequencing. The determined nucleotide and translated amino acid sequences were compared with those deposited in the National Center for Biotechnology Information (NCBI) database by a BLASTN search. Bacillaceae (Solibacillus silvestris, Bacillus licheniformis, Bacillus cereus, Bacillus paralicheniformis) and Enterobacteriaceae (Enterobacter cloacae, Enterobacter ludwigii, Serratia marcescens) dominated the bacterial family in the packing material by 53% and 47%, respectively.
Słowa kluczowe
Opis fizyczny
  • Department of Bioengineering, Kafkas University, Kars, Turkey
  • Department of Environmental Engineering, Yildiz Technical University, Istanbul, Turkey
  • Department of Environmental Engineering, Yildiz Technical University, Istanbul, Turkey
  • 1. SÁNCHEZ Ó.J., OSPINA D.A., MONTOYA S. Compost supplementation with nutrients and microorganisms in composting process. Waste Management. 2017.
  • 2. JARA-SAMANIEGO J., PÉREZ-MURCIA M.D., BUSTAMANTE M.A., PÉREZ-ESPINOSA A., PAREDES C., LÓPEZ M., LÓPEZ-LLUCH D.B., GAVILANES-TERÁN I., MORAL R. Composting as sustainable strategy for municipal solid waste management in the Chimborazo Region, Ecuador: Suitability of the obtained composts for seedling production. Journal of Cleaner Production. 141, 1349, 2017.
  • 3. COLÓN J., CADENA E., POGNANI M., BARRENA R., SÁNCHEZ A., FONT X., ARTOLA A. Determination of the energy and environmental burdens associated with the biological treatment of source-separated municipal solid wastes. Energy & Environmental Science. 5 (2), 5731, 2012.
  • 4. BOLDRIN A., ANDERSEN J.K., MØLLER J., CHRISTENSEN T.H., FAVOINO E. Composting and compost utilization: accounting of greenhouse gases and global warming contributions. Waste Management & Research. 27 (8), 800, 2009.
  • 5. MUSTAFA M.F., LIU Y., DUAN Z., GUO H., XU S., WANG H., LU W. Volatile compounds emission and health risk assessment during composting of organic fraction of municipal solid waste. Journal of hazardous materials. 327, 35, 2017.
  • 6. AVIDOV R., SAADI I., KRASSNOVSKY A., HANAN A., MEDINA S., RAVIV M., CHEN Y., LAOR Y. Composting municipal biosolids in polyethylene sleeves with forced aeration: Process control, air emissions, sanitary and agronomic aspects. Waste Management. 67, 32, 2017.
  • 7. SCHLEGELMILCH M., STREESE J., BIEDERMANN W., HEROLD T., STEGMANN R.Odour control at biowaste composting facilities. Waste Management. 25 (9), 917, 2005.
  • 8. SCAGLIA B., ORZI V., ARTOLA A., FONT X., DAVOLI E., SANCHEZ A., ADANI F. Odours and volatile organic compounds emitted from municipal solid waste at different stage of decomposition and relationship with biological stability. Bioresource technology. 102 (7), 4638, 2011.
  • 9. CERDA A., ARTOLA A., FONT X., BARRENA R., GEA T., SÁNCHEZ A. Composting of food wastes: Status and challenges. Bioresource technology. 2017.
  • 10. MUDLIAR S., GIRI B., PADOLEY K., SATPUTE D., DIXIT R., BHATT P., PANDEY R., JUWARKAR A., VAIDYA A. Bioreactors for treatment of VOCs and odours - a review. Journal of environmental management. 91 (5), 1039, 2010.
  • 11. KENNES C., RENE E.R., VEIGA M. C. Bioprocesses for air pollution control. Journal of Chemical Technology and Biotechnology. 84 (10), 1419, 2009.
  • 12. VIKRANT K., KIM K.-H., SZULEJKOJ. E., PANDEY S. K., SINGH R.S., GIRI B.S., BROWN R.J.C., LEE S.-H. Bio-filters for the Treatment of VOCs and Odors. Asian Journal of Atmospheric Environment. 11 (3), 139, 2017.
  • 13. LIU Q., LI M., CHEN R., LI Z., QIAN G., AN T., FU J., SHENG G.Biofiltration treatment of odors from municipal solid waste treatment plants. Waste Management. 29 (7), 2051, 2009.
  • 14. BARBUSINSKI K., KALEMBA K., KASPERCZYK D., URBANIEC K., KOZIK V. Biological methods for odor treatment - A review. Journal of Cleaner Production. 152, 223, 2017.
  • 15. JUN Y., WENFENG X. Ammonia biofiltration and community analysis of ammonia-oxidizing bacteria in biofilters. Bioresource technology. 100 (17), 3869, 2009.
  • 16. ZHAI J., WANG Z., SHI P., LONG C. Microbial community in a biofilter for removal of low load nitrobenzene waste gas. PloS one. 12 (1), e0170417, 2017.
  • 17. BORIN S., MARZORATI M., BRUSETTI L., ZILLI M., CHERIF H., HASSEN A., CONVERTI A., SORLINI C., DAFFONCHIO D. Microbial succession in a compost-packed biofilter treating benzene-contaminated air. Biodegradation. 17 (2), 79, 2006.
  • 18. CHENG Z., LU L., KENNES C., YU J., CHEN, J. Treatment of gaseous toluene in three biofilters inoculated with fungi/bacteria: microbial analysis, performance and starvation response. Journal of hazardous materials. 303, 83, 2016.
  • 19. MOHAMED E.F., AWAD G., ANDRIANTSIFERANA C., EL-DIWANY A. I.Biofiltration technology for the removal of toluene from polluted air using Streptomyces griseus. Environmental technology. 37 (10), 1197, 2016.
  • 20. CABROL L., POLY F., MALHAUTIER L., POMMIER T., LERONDELLE C., VERSTRAETE W., LEPEUPLE A.S., FANLO J.L., ROUX X. L. Management of microbial communities through transient disturbances enhances the functional resilience of nitrifying gas-biofilters to future disturbances. Environmental science & technology. 50 (1), 338, 2015.
  • 21. YASUDA T., KURODA K., HANAJIMA D., FUKUMOTO Y., WAKI M., SUZUKI K. Characteristics of the microbial community associated with ammonia oxidation in a full-scale rockwoolbiofilter treating malodors from livestock manure composting. Microbes and environments. 25 (2), 111, 2010.
  • 22. KRISTIANSEN A., PEDERSEN K.H., NIELSEN P.H., NIELSEN L.P., NIELSEN J.L., SCHRAMM A. Bacterial community structure of a full-scale biofilter treating pig house exhaust air. Systematic and applied microbiology. 34 (5), 344, 2011.
  • 23. YASUDA T., WAKI M., FUKUMOTO Y., HANAJIMA D., KURODA K., SUZUKI K. Characterization of the denitrifying bacterial community in a full-scale rockwool-biofilter for compost waste-gas treatment. Applied microbiology and biotechnology. 101 (17), 6779, 2017.
  • 24. CHENG Z., LU L., KENNES C., YE J., YU J., CHEN D., CHEN J. A composite microbial agent containing bacterial and fungal species: Optimization of the preparation process, analysis of characteristics, and use in the purification for volatile organic compounds. Bioresource technology. 218, 751, 2016.
  • 25. YILDIZ Ş., ÖLMEZ E., KIRIŞ A. Kompost Teknolojilerive İstanbul’daki Uygulamaları (Kompost laştırma Sistemlerive Kompostun Kullanım Alanları Çalıştayı) (ss. 1–12). Istanbul. 2009.
  • 26. ÇELIKTEN H., SARAL A., KUZU S.L. Volatile Organic Compound (VOC) Characterization of Municipal Solid Waste Composting Process Emissions. EURASIA Waste Management Symposium. 2018.
  • 27. FRIEDRICH U., PRIOR K., ALTENDORF K., LIPSKI, A. High bacterial diversity of a waste gas-degrading community in an industrial biofilter as shown by a 16S rDNA clone library. Environmental Microbiology. 4 (11), 721, 2002.
  • 28. SHAREEFDEEN Z., HERNER B., WEBB D., WILSON S. Synthetıc media biofilter eliminates hydrogen sulfide and other reduced sulphur compound odors. Proceedings of the Water Environment Federation. 2003 (7), 153, 2003.
  • 29. BINDRA N., DUBEY B., DUTTA, A. Technological and life cycle assessment of organics processing odour control technologies. Science of the Total Environment. 527, 401, 2015.
  • 30. LÓPEZ-GONZÁLEZ J.A., DEL CARMAN VARGAS-GARCÍA M., LÓPEZ M.J., SUÁREZ-ESTRELLA F., DEL MAR JURADO M., MORENO J. Biodiversity and succession of mycobiota associated to agricultural lignocellulosic waste-based composting. Bioresource technology. 187, 305, 2015.
  • 31. HO K.-L., CHUNG Y.-C., TSENG C.-P. Continuous deodorization and bacterial community analysis of a biofilter treating nitrogen-containing gases from swine waste storage pits. Bioresource technology. 99 (8), 2757, 2008.
  • 32. ÖZİÇ C., ARSLANYOLU M. Characterization of affinity tag features of recombinant Tetrahymenathermophila glutathione-S-transferase zeta for Tetrahymena protein expression vectors. Turkish Journal of Biology. 36 (5), 513, 2012.
  • 33. CADENA E., COLÓN J., SÁNCHEZ A., FONT X., ARTOLA A.A methodology to determine gaseous emissions in a composting plant.Waste Management. 29 (11), 2799, 2009.
  • 34. LÓPEZ R., CABEZA I.O., GIRÁLDEZ I., DÍAZ M.J. Biofiltration of composting gases using different municipal solid waste-pruning residue composts: Monitoring by using an electronic nose. Bioresource technology. 102 (17), 7984, 2011.
  • 35. BUYUKSONMEZ F., EVANS J. Biogenic Emissions from green waste and comparison to the emissions resulting from composting part II: Volatile Organic Compounds (VOCs). Compost science & utilization. 15 (3), 191. 2007.
  • 36. MAULINI-DURAN C., ARTOLA A., FONT X., SÁNCHEZ A. Gaseous emissions in municipal wastes composting: effect of the bulking agent. Bioresource technology. 172, 260, 2014.
  • 37. ZHANG H., LI G., GU J., WANG G., LI Y., ZHANG D. Influence of aeration on volatile sulfur compounds (VSCs) and NH3 emissions during aerobic composting of kitchen waste. Waste management. 58, 369, 2016.
  • 38. GALLEGO E., ROCA F.J., PERALES J.F., SÁNCHEZ G., ESPLUGAS P. Characterization and determination of the odorous charge in the indoor air of a waste treatment facility through the evaluation of volatile organic compounds (VOCs) using TD-GC/MS. Waste management. 32 (12), 2469, 2012.
  • 39. MAO I.-F., TSAI C.-J., SHEN S.-H., LIN T.-F., CHEN W.-K., CHEN M.-L. Critical components of odors in evaluating the performance of food waste composting plants. Science of the total environment. 370 (2-3), 323, 2006.
  • 40. KOMILIS D.P., HAM R.K., PARK J.K. Emission of volatile organic compounds during composting of municipal solid wastes. Water research. 38 (7), 1707, 2004.
  • 41. WEI Y., LI J., SHI D., LIU G., ZHAO Y., SHIMAOKA T. Environmental challenges impeding the composting of biodegradable municipal solid waste: A critical review. Resources, Conservation and Recycling. 122, 51, 2017.
  • 42. NCBI., June 13).
  • 43. TAN W.-S., YUNOS N. Y. M., TAN P.-W., MOHAMAD N.I., ADRIAN T.-G.-S., YIN W.-F., CHAN K.-G. Freshwater-borne bacteria isolated from a Malaysian rainforest waterfall exhibiting quorum sensing properties. Sensors, 14 (6), 10527, 2014.
  • 44. ESTRADA J.M., HERNÁNDEZ S., MUÑOZ R., REVAH, S.A comparative study of fungal and bacterial biofiltration treating a VOC mixture.Journal of hazardous materials. 250, 190, 2013.
  • 45. PRENAFETA-BOLDÚ F.X., GUIVERNAU M., GALLASTEGUI G., VIÑAS M., DE HOOG G.S., ELÍAS A. Fungal/bacterial interactions during the biodegradation of TEX hydrocarbons (toluene, ethylbenzene and p-xylene) in gas biofilters operated under xerophilic conditions. FEMS microbiology ecology. 80 (3), 722, 2012.
  • 46. TSANG Y.F., WANG Y., WANG H., YANG Y., ZHANG Y., CHUA H. Biodegradation of Ammonia in Biofiltration Systems: Changes of Metabolic Products and Microbial Communities. In Nitrification and Denitrification.InTech. 2017.
  • 47. PARTANEN P., HULTMAN J., PAULIN L., AUVINEN P., ROMANTSCHUK M. Bacterial diversity at different stages of the composting process. BMC microbiology. 10 (1), 94, 2010.
Typ dokumentu
Identyfikator YADDA
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.